Topics
numerical analysisMusic genre
GaAsChemical substance
.png%3Fwidth%3D300&w=3840&q=75)
radiative heat transferCompany
heat transferCompany
arsenideChemical substance
A numerical analysis of radiative heat transfer in a liquid encapsulant Czochralski gallium arsenide crystal puller is developed. The heat transfer and equivilent ambient temperature of each surface element are calculated using the Gebhart radiative model. The effective ambient temperature, to which each surface element is radiating, is found to vary indicating that assuming a constant ambient temperature for all surfaces (simplified radiative model) is incorrect. The importance of including the middle and top cylinders of the growth chamber in numerical analysis of radiative heat transfer in the system is evaluated in the study. The upper section could be replaced by one isothermal surface without significant change of the effective ambi...
The temperature distribution during crystal growth by the traveling heater method (THM) has been cal...
The interaction between conduction, convection and radiation heat transfer in molten glass has been ...
A two-dimensional finite element model was developed to calculate the temperature distribution in th...
Semiconductor crystal growth is a very complex process occurring on a small geometrical scale. One o...
A set of numerical analyses for momentum and heat transfer For a 3 in. (0.075 m) diameter Liquid Enc...
The heat transport in the melt and in the crystal including the interface shape was numerically inve...
The temperature fields and resulting stress fields have been calculated for a growing GaAs crystal p...
For a Czochralski crystal growth of sapphire, influence of radiative heat transfer and gas convectio...
This paper reports on the radiation heat transfer from the melt in a Czochralski crystal growing fur...
1164-1175A study on the control of the cross-sectional area of an optical crystal grown from its me...
Production of perfect crystals, free of residual strain and dislocations and with prescribed dopant ...
Stress assisted diffusion in single crystal Gallium Arsenide (GaAs) leads to the formation and growt...
A method for the computation of radiative heat transfer was suggested. It is based on numeric comput...
The heat transfer and liquid phase convection during GaInSb crystal growth via the traveling heater ...
In crystal growth devices, in order to control the growth defects and compositional homogeneity of t...
The temperature distribution during crystal growth by the traveling heater method (THM) has been cal...
The interaction between conduction, convection and radiation heat transfer in molten glass has been ...
A two-dimensional finite element model was developed to calculate the temperature distribution in th...
Semiconductor crystal growth is a very complex process occurring on a small geometrical scale. One o...
A set of numerical analyses for momentum and heat transfer For a 3 in. (0.075 m) diameter Liquid Enc...
The heat transport in the melt and in the crystal including the interface shape was numerically inve...
The temperature fields and resulting stress fields have been calculated for a growing GaAs crystal p...
For a Czochralski crystal growth of sapphire, influence of radiative heat transfer and gas convectio...
This paper reports on the radiation heat transfer from the melt in a Czochralski crystal growing fur...
1164-1175A study on the control of the cross-sectional area of an optical crystal grown from its me...
Production of perfect crystals, free of residual strain and dislocations and with prescribed dopant ...
Stress assisted diffusion in single crystal Gallium Arsenide (GaAs) leads to the formation and growt...
A method for the computation of radiative heat transfer was suggested. It is based on numeric comput...
The heat transfer and liquid phase convection during GaInSb crystal growth via the traveling heater ...
In crystal growth devices, in order to control the growth defects and compositional homogeneity of t...
The temperature distribution during crystal growth by the traveling heater method (THM) has been cal...
The interaction between conduction, convection and radiation heat transfer in molten glass has been ...
A two-dimensional finite element model was developed to calculate the temperature distribution in th...
Add to ORKG